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Hydrogen has one electron and is therefore capable of forming only one bond.
What else can I help you with?
How many bonds could each make with hydrogen?
Carbon can make 4 bonds with hydrogen. Nitrogen can make 3 bonds with hydrogen. Oxygen can make 2 bonds with hydrogen.
How many bonds can Se make with Hydrogen?
Selenium can form two bonds with hydrogen.
How many bonds does silicon have hydrogen?
Silicon has 4 bonds with hydrogen
How many bonds to hydrogen can selenium have?
Selenium can form two bonds with hydrogen.
How many bonds can selenium have with hydrogen?
Hydrogen selenide (H2Se) has two bonds.
How many hydrogen bonds can iodine make?
Iodine does not typically form hydrogen bonds due to its electronegativity and lack of hydrogen atoms capable of participating in such interactions. Hydrogen bonds typically occur between hydrogen atoms bonded to electronegative atoms like nitrogen, oxygen, or fluorine.
How many bonds doe silicon have with hydrogen?
Silicon has 4 bonds with hydrogen
How many bonds to hydrogen does hydrogen have?
7
How many bonds can iodine make with hydrogen?
Iodine can form one bond with hydrogen to create hydrogen iodide (HI). This is because iodine has seven valence electrons and needs one more to complete its octet. When it bonds with hydrogen, which has one electron, they share electrons to achieve stability. Thus, the maximum number of bonds iodine can make with hydrogen is one.
How many bonds to hydrogen can hydrogen have?
Just ONE.
How many bonds to hydrogen does arsenic have?
Arsenic typically forms three covalent bonds with hydrogen.
In the molecule below how many atoms could make hydrogen bonds with water?
To determine how many atoms in a molecule can form hydrogen bonds with water, look for electronegative atoms that can either donate or accept hydrogen bonds, such as oxygen, nitrogen, or fluorine. Each of these atoms can form hydrogen bonds with the hydrogen atoms of water. If you provide the specific molecule in question, I can give a more precise answer regarding the number of atoms that could participate in hydrogen bonding with water.
